Kuo G H, Prouty C, Murray W V, Pulito V, Jolliffe L, Cheung P, Varga S, Evangelisto M, Shaw C
Drug Discovery Division, The R.W. Johnson Pharmaceutical Research Institute, Raritan, NJ 08869, USA.
Bioorg Med Chem. 2000 Sep;8(9):2263-75. doi: 10.1016/s0968-0896(00)00151-6.
Beginning from the screening hit and literature alpha1-adrenergic compounds, a hybridized basic skeleton A was proposed as the pharmacophore for potent and selective alpha1a-AR antagonists. Introduction of a hydroxy group to increase the flexibility afforded B which served as the screening model and resulted in the identification of the second-generation lead 1. Using the Topliss approach, a number of potent and selective alpha1a-AR antagonists were discovered. In all cases, binding affinity and selectivity at the alpha1a-AR of S-hydroxy enantiomers were higher than the R-hydroxy enantiomers. As compared to the des-hydroxy analogues, the S-hydroxy enantiomers displayed comparable potency and better selectivity at alpha1a-AR. The S-hydroxy enantiomer 17 (Ki = 0.79 nM; alpha1b/alpha1a = 800; alpha1d/alpha1a = 104) was slightly less potent but much more selective at alpha1a-AR than tamsulosin (Ki = 0.13 nM, alpha1b/alpha1a = 15, alpha1d/alpha1a = 1.4). Compound 17 displayed higher selectivity in inhibiting rat prostate contraction over rat aorta contraction and also exhibited a higher degree of uroselectivity than tamsulosin in the anesthetized dog model.
从筛选得到的活性化合物和文献报道的α1-肾上腺素能化合物出发,提出了一种杂化的基本骨架A作为强效和选择性α1a-AR拮抗剂的药效团。引入羟基以增加柔性得到了B,B用作筛选模型并导致了第二代先导化合物1的发现。采用Topliss方法,发现了许多强效和选择性α1a-AR拮抗剂。在所有情况下,S-羟基对映体在α1a-AR上的结合亲和力和选择性均高于R-羟基对映体。与去羟基类似物相比,S-羟基对映体在α1a-AR上表现出相当的效力和更好的选择性。S-羟基对映体17(Ki = 0.79 nM;α1b/α1a = 800;α1d/α1a = 104)在α1a-AR上的效力略低于坦索罗辛(Ki = 0.13 nM,α1b/α1a = 15,α1d/α1a = 1.4),但选择性更高。化合物17在抑制大鼠前列腺收缩方面比抑制大鼠主动脉收缩表现出更高的选择性,并且在麻醉犬模型中也比坦索罗辛表现出更高程度的尿选择性。
